CS205646B1 - Vacuum electrooptical image tube - Google Patents

Description

The present invention relates to a vacuum electro-optical image converter for the visible and infrared region of the electromagnetic radiation spectrum, with video or signal output.

Previous types of electro-optical image converters for visible and infrared range usually cover only a narrow spectral range of hundreds of nanometers in each type. The wavelength limit is at most about 1200 nm for image-to-video converters and at most 2000 nm for image-to-video converters. The only significant exception is pyroelectric vidicon, which is an image-to-signal converter with a spectrally independent pyroelectric reoeptor - the target - and is spectrally limited by the throughput of the input window.

Disadvantages of the prior art are eliminated by a vacuum electro-optical image converter according to the invention, characterized in that in the evacuated flask a pyroelectric surface receptor is provided opposite the entrance window, provided with a laterally non-conducting electron layer on the side opposite the entrance window. an eraiter, wherein an auxiliary electron source is formed between the reoeptor and the imaging system in electron-optical bond with the emitter.

The higher effect of the vacuum electro-optical image converter according to the invention is manifested in that it can be designed as a picture-picture or picture-signal converter, wherein

205 646

205 040 its spectral range is defined in principle in the same way as pyroelectric vidicon, but with substantially increased sensitivity and with the possibility of direct video output. The benefit of the invention can also be manifested in energy savings wherever there is an undesirable heat loss when imaging temperature fields in the spectral range of 2 to 14 µm.

The attached drawing shows schematically a vacuum electro-optical image converter according to the invention, which consists of an evacuated bulb 7 with an entrance window 2 followed by a pyroelectric surface receptor 3 provided with a laterally non-conductive, e.g. mosaic, electron emitter layer 4 followed by an electro-optical system 5, with an electron image converter 6, wherein another separate auxiliary electron source 7 is provided in the flask in electron-optical coupling to emitter 4.Converter 6 is any system capable of processing an electron image into a suitable output form, an optical image, i.e. a luminescent screen or an electrical signal, eg, a scanning electrode with a scanning system. Advantageously, the electron source 7 may consist of an optically excited photocathode provided on or near the inner wall of the bulb, electrically separated from the other parts of the transducer and separately discharged.

The function of the vacuum electro-optical image converter according to the invention consists in processing the information carried by the electron beam from the emitter 4 by the converter 6, the converter operating cyclically: the initial state is equilibrium exhaustion of the charge from the emitter 4. In the input, the emitter 4 emits a charge generated in the surface receptors 3 by an imaging electron beam, which is focused by the imaging system J at the input of the converter 6, from which the respective output is taken. After the steady state at the receptor 3, the functional emission ceases and a regeneration cycle is initiated, in which, after blocking the input, the exhausted emission of the emitter 4 from the electron source 7 is restored and the non-functional emission from the emitter 4 is restored. The individual parts of the cycles are controlled by switching the potentials of the individual parts of the inverter synchronously with the input screen.

The vacuum electro-optic image converter according to the invention can find application in many technical and scientific fields, especially in health, energy, construction, specialty and industry, and its most important contribution appears in the field of temperature field imaging in the spectral range 2 to 14 µm. to save energy wherever there is an undesirable heat leak.

Claims (5)

SUBJECT OF THE INVENTION Vacuum electro-optical image converter for processing image information in the visible and infrared part of the spectrum, characterized in that in the evacuated flask (1), a pyroelectric surface receptor (3) is provided opposite the entrance window (3), provided on the side facing away from the entrance window ( 2) against an electron-optical imaging system (5) 205 64 and an electron image converter (6), a laterally non-conductive electron emitter layer (4), wherein between the reoeptor (3) and the imaging system (5) there is located an auxiliary electron source (7) in electron-optical coupling with the emitter (4). Vacuum electro-optical image converter according to claim 1, characterized in that the electron emitter (4) is a mosaic photocathode. Vacuum electro-optical image converter according to Claims 1 and 2, characterized in that the auxiliary electron source (7) is formed by a photocathode. Vacuum electro-optical image converter according to Claims 1 to 3, characterized in that the electron image converter (6) is formed by a luminescent screen. Vacuum electro-optical image converter according to Claims 1 to 3, characterized in that the electron image converter (6) is formed by a scanning electrode with a scanning system.